ASTM B163 is the Specification for Seamless Nickel and Nickel Alloy Condenser and Heat-exchanger Tubes. This covers outside diameter and average wall, or outside diameter and minimum wall tube. The tube shall be furnished in the alloys and conditions defined by this specification. The ASTM B163/ASME SB163 material shall conform to the composition limits of nickel, copper, molybdenum, iron, manganese, carbon, silicon, chromium, aluminum, titanium, phosphorus, cerium, and zirconium, yttrium, boron, cobalt, columbium, tungsten, and nitrogen specified. Tensile strength, yield strength, elongation, and Rockwell hardness of the material shall conform to the required Mechanical Properties set by this specification. Test methods such as chemical analysis, tension, rounding procedure, Rockwell hardness, grain size, and hardness conversion shall be performed for qualified ASTM B163/ASME SB163 alloy tubes. ASTM B163/ASME SB163 NICKEL ALLOY PIPE/TUBE PROVIDED BY YUHONG ASTM B163/ASME SB163 Nickel Alloy Pipe/Tube The most popular materials under ASTM B163 Standard are: UNS N04400(Monel 400); UNS N06600(Inconel 600); UNS N08800(Inconel 800); UNS N08810(Incoloy 800H); UNS N08811(Incoloy 800HT); UNS N08825(Incoloy 825). Incoloy 800/N08800 Nickel Alloy Pipe/Tube Incoloy 800H/N08810 Nickel Alloy Pipe/Tube Incoloy 800HT/N08811 Nickel Alloy Pipe/Tube Incoloy 825/N08825 Nickel Alloy Pipe/Tube Inconel 600/ N06600 Nickel Alloy Pipe/Tube Inconel 601/ N06601 Nickel Alloy Pipe/Tube Monel 400/N04400 Nickel Alloy Pipe/Tube Nickel 200/N02200 Nickel Seamless Pipe/Tube ASTM B163/ASME SB163 Nickel Alloy Pipe/Tube ASTM B163/ASME SB163 NICKEL ALLOY PIPE/TUBE FEATURES Nickel alloys tube under ASTM B163 can meet the High Strength and corrosion resistance in a range of media including sea water, hydrofluoric acid, sulphuric acid, and alkalies. ASTM A163 Coiled Tubing is highly resistant to corrosion in different environments. This tubing enables the speed of the operation to be fast at the same time, it is very safe and easy to run. ASTM B 163 Tubing is used in applications for drilling, logging, fracturing, perforating, and production operations. These tubings have a lower environmental impact. If you are looking for a reliable ss pipe company, don't hesitate to contact us!
Flat lock is a common type of mechanical lock. Its basic structure includes lock cylinder, lock body and handle. The lock cylinder usually contains components such as slot, sleeve, core barrel and lock plate, which are used to control the opening and closing of the lock. The lock body is made of metal, which is durable and safe. It contains the lock cylinder and contacts the surface of the door or other objects. The handle is used to manually operate the lock to rotate the lock cylinder to open or close the lock. It is mainly used for door locks of various cabinets, such as machine tools, electric cabinets, etc. According to the search results, flat locks have different types and characteristics. Maintenance and care: In order to ensure the normal use and extend the life of the flat lock, the following maintenance and care measures should be taken: 1.Regular cleaning: Use a soft cloth or cotton swab to dip a small amount of detergent (such as detergent or soapy water) and gently wipe the outer surface of the flat lock, while ensuring that no moisture or detergent residue is left on the lock hole and the internal slide. 2.Prevent dust accumulation: Keep the area around the flat lock clean to prevent dust and debris from entering the lock body. 3.Lubricate the lock core: Regularly use an appropriate amount of lock core lubricant (such as lithium-based lubricating oil) to drip on the lock core, and then insert the key to apply the lubricant. 4.Use with caution: Avoid violent impact, strong twisting or excessive force. 5.Adjust fasteners: If the flat lock is found to be loose or shaking, you can use appropriate tools to gently tighten the screws of the lock body and the mounting base. 6.Regular inspection: Regularly check whether the various components of the flat lock are normal.
Electroplating wastewater include the pretreatment rinsing wastewater, plating rinsing wastewater. And the principal pollutants are heavy metal ion . 1.1 Up-to-standard discharge technology The emission of waste water which contains heavy metal ions such as Cr, Cu and Ni must meet the local requirements by adopting the means of Physical and Chemical Reaction + Sequencing Batch Precipitation + Ion Exchange + Compulsory Filtration to reach the standard. 1.2 Electroplating wastewater reuse technology Electroplating wastewater reuse technology means to add reclaimed water reuse system and reuse system on the basis of standardized discharge technology. The effluent can meet reclaimed water reuse standards(such as cleaning). 1.3 Electroplating wastewater zero-discharge technology MVR evaporator Working principle: MVR evaporator will increase the energy of secondary steam by using compressor, and will take advantage of the secondary steam with improved energy to recycle the potential heat of secondary steam. Specifically: Increase the pressure and temperature of the secondary steam generated by evaporator through the adiabatic compression in compressor, and after that, the steam will be fed into the heating chamber of evaporator (heat exchange system) as the heating steam, thus the potential heat of steam can be reused. The cold material will absorb the heat of non-condensable gas through preheating exchanger before being sent into evaporator, so the temperature of the cold material will increase, meanwhile, the condensate can be cooled by this material. This can further improve the utilization ratio of heat.
Radio-Frequency Plasma System AS-V100 Merits: Environmentally friendly molecular-level surface cleaning enhances uniformity and hydrophilicity, making it an ideal pre-treatment for bonding processes. Application fields: Suitable for PCBs,FPC IC substrates, LCDs, PV batteries, semiconductors, PTFE, automotive interior parts, medical equipment, plastic and rubber products. Product Specifications: 1.Outline Dimensions (footprint):1200*800*1750H mm 2.Vacuum chamber size:450*450*610mm 3.Power frequency:13.56MHz 4.Power supply:1Kw 5.Electrode plate specifications: Non-standard customization 6.Software control: PLC touch screen 7.Gas purity requirement: Industrial grade gas or better 8.Loadable gas:O2 N2 Ar Features & Performance: 1.User-friendly automatic control interface with a touch screen for easy operation. 2.Unique cavity design ensures excellent cleaning uniformity and high cleaning quality. 3.Utilizes a two-layer structure with 4-6 material boxes per layer, combining chemical reactivity and physical impact for a short cleaning cycle and high efficiency. 4.Plasma cleaning offers high repeatability, strong controllability, high utilization rate, and operates with no pollution and low operating costs. 5.Features a simple structure, compact footprint, high efficiency, easy operation and maintenance, fast speed, and stable performance. 6.Enhances the surface wetting ability of the lead frame or substrate before D/A, ensuring precision and firmness in subsequent processes.
A crawler type shot blast cleaning machine, also known as a tumble belt shot blasting machine or rubber belt shot blasting machine, is designed for the efficient and uniform surface treatment of bulk quantities of small to medium-sized workpieces. This type of machine is particularly well-suited for removing rust, scale, sand, and burrs from various parts; preparing surfaces for painting, coating, or plating; and even shot peening to increase fatigue strength. It is commonly used in industries such as foundry, forging, automotive, and metal manufacturing. Tumblast Machine & Barrel Blasting Machines Types Tumble Belt Shot Blasting Machine Barrel Blasting Machines Benefits of Crawler Shot Blasting Machines Efficient Cleaning of Large Workpieces: They are ideal for blasting large, heavy, or oddly shaped parts that wouldn't fit well in traditional blasting cabinets. The continuous movement on the crawler track ensures all surfaces are exposed to the abrasive media for uniform cleaning. Improved Productivity: The continuous processing nature of these machines allows for faster blasting of large workpieces compared to manual methods or using smaller blasting cabinets. Reduced Labor Costs: Automating the blasting process with a crawler machine minimizes reliance on manual labor for handling heavy pieces, potentially lowering overall production costs. Versatility: Some shot blasting machine crawler type offer adjustable track speeds and blast intensity settings to accommodate a variety of workpiece sizes and cleaning requirements. Function of Crawler Shot Blasting Machine Industrial Sandblasting Equipment Continuous Blasting: Unlike blast cabinets where blasting stops for loading/unloading, crawler shot blasting machines offer a more continuous process. Workpieces are placed on a caterpillar track (hence the name "crawler") that moves them steadily through the blasting chamber. This allows for efficient processing of large or heavy pieces. Multiple Blast Wheels: Strategically positioned blast wheels within the chamber bombard the workpieces with abrasive media as they travel on the crawler track. This ensures thorough cleaning of all surfaces, even on complex-shaped objects. Durable Construction: These machines are built to handle the weight and potential impact of large workpieces. They typically feature robust construction materials and heavy-duty components for reliable operation in demanding environments.
X-ray Inspection Machine for Stacking Battery Seamark stacking battery industrial digital x ray inspection systems are suitable for the inspection of stacking (blade) process-type cells in the lithium battery industry and can adopt TDI line scanning technology and expandable inspection functions such as plate fold and tab fold. Seamark has 2 kinds of stacking battery X-ray inspection machines, inline and offline. Customers can choose the suitable product according to different requirements. Types of Stacking Battery X-Ray Inspection Machine Offline Inspection Machine for Stacking Battery Various stacking process types of batteries can be inspected by using the Seamark offline stacking battery X-ray inspection machines. Random inspections are frequently conducted using offline inspection equipment. It uses an advanced FPD and professional Hamamatsu X-ray tube, which may assist the operator in acquiring a clear image of the samples and making the right decisions. In some labs and small battery manufacturing businesses, it is commonly used. XB5200-Stacking Battery Inspection Inline Inspection Machine for Stacking Battery Seamark's XB7200 inline stacking battery X-ray inspection machines offer automatic inspection for multi-layer stacking power batteries. Using advanced imaging technologies, it assesses aspects like weighing, folds, and creases, ensuring high-quality stacking batteries vital for the new energy car industry's reliable performance. XB7200-Stacking Battery Inspection Advantages of Using SEAMARK's Stacking Battery X-ray Inspection Machine î?§ Adopt the Advanced X-ray Tube Seamark values the collaboration and R&D with the world's leading manufacturer of X-ray tubes. It adopts the Hamamatsu X-ray tube, which is one of the best industrial X-ray tube manufacturers around the world. High Dynamic Multi-fusion Filtering Algorithm High dynamic: Breaking through the limitations of X-ray tubes. Fit: The model is more stable. Multi-fusion: multi-operator fusion. Clarity: Large image quality. î?? Professional Teams Professional R&D department and after-sales service engineers group provide you with patient and professional technology support to make sure customers use equipment efficiently and easily.
Offline Inspection Machine for Stacking Battery Seamark offline stacking battery industrial x ray inspection equipment, which is suitable for inspection of various stacking process-type batteries. Seamark has 1 model XB5200 as such kind of machine. it is suitable for the inspection of stacking (blade) process-type cells in the lithium battery industry and adopts TDI line scanning technology and expandable inspection functions such as plate fold and tab fold. Offline inspection machine is typically used to make random inspections. It adopts a Hamamatsu X-ray tube and advanced FPD, which can help the operator to get a good effect image of the samples and help the operator to make the correct judgment. It is widely used in some labs and small battery manufacturing enterprises. Stacking Offline Inspection Machine Types XB5200-Stacking Battery Inspection Semi Auto Series XB5200, suitable for the inspection of stacking (blade) process-type batteries. What Types Of Defects Can The Stacking Offline Inspection Machine Detect? Angle Overhang This refers to misalignments or protrusions in the angles of the battery components. The inspection machine can identify irregularities in the alignment, ensuring the components are properly positioned. Large Area Folds Large folds in the battery material can impact the battery's structural integrity and performance. The machine is designed to identify these folds, ensuring the battery's surface is smooth and defect-free. Tab Creases Tabs are critical components in batteries, connecting different layers. Creases or deformities in these tabs can lead to electrical issues. The inspection machine can detect tab creases, ensuring the tabs are in optimal condition for proper electrical connections. How Does Stacking Offline X-Ray Inspection Machine Work? Stacking Offline Inspection Machine X-ray tubes and detectors are the core components of offline X-ray battery inspection machines. The machine provides images of the internal structure with the help of the X-ray tube and detector. FPD receives and converts the X-ray signal to an industrial computer, then the software will process the received signal through an algorithm and output the X-ray image. Offline X-ray inspection machines do not need to be used with other devices, and its easy to place and operate. FAQs of Stacking Offline Inspection Machine Is the Offline Inspection Machine suitable for small-scale as well as large-scale production? The offline inspection is suitable for random inspection. So it depends on the requirements of different battery production enterprises.
Inline X Ray Inspection Machine for Stacking Battery Seamarkzm has 1 model which is an inline winding battery x-ray inspection machine, it is XB7200. Inline winding battery x-ray inspection is widely used in different kinds of stacking batteries. XB7200 achieves fully automatic inline inspection of multi-layer stacking power batteries, using TDI line scanning image technology or using area array image acquisition technology. The inspection contents include: weighing, angle overhang, large folds, tab creases, etc. Inline x ray machine is typically used in the full automatic lithium battery production line. And the stacking batteries are widely used in the new energy car industry. Which can provide good judgment for the battery quality. Stacking Inline X Ray Inspection Machine Types XB7200-Stacking Battery Inspection Full Auto Series XB7200 achieves fully automatic inline inspection of multi-layer stacking power batteries. Why Is Stacking Inline Inspection Important? Control the Quality An inline X-ray battery inspection machine is typically used in the production line. It can easily sort out defective products during the production process, prompting companies to improve their processes. High Efficiency Fully automated inspection can accurately and efficiently control production quality, saving labor and time. Save Cost Defective products can be effectively prevented from entering the circulation process and the company's after-sales costs can be reduced. At the same time, the fully automated production line can effectively save labor. How Does Stacking Battery Inline Inspection Machine Handle Different Product Shapes And Sizes? Stacking Inline Inspection Machine Real time x ray machines handle diverse product shapes and sizes by employing adjustable loading plates for standard items and customized fixtures for irregular shapes. These fixtures secure products during inspection, ensuring accuracy. Advanced software algorithms optimize imaging parameters, guaranteeing clear results for various configurations. This adaptability enhances efficiency and precision in the inspection process, accommodating the unique requirements of different products. FAQs of Stacking Inline Inspection Machine � Can the machine be integrated seamlessly into existing production lines or quality control processes? The inline machine can be used in the full automatic lithium battery production line. What industries benefit the most from SEAMARK's Online X Ray Machine? Various kinds of lithium battery manufacturing enterprises have adopted our machine, and it helps their production a lot.
OST Photonics offers various functional crystal materials for laser systems, optical equipment and instruments. Crystals are divided into six types according to their functions: laser crystals (diffusion bonding crystals, Nd:YAG, Er:YAG, Yb:YAG, CTH:YAG, Nd:Ce:YAG, Nd:YVO4, Nd:GdVO4, Nd:YLF, Pr:YLF, Ho:YLF, Tm:YLF, Ti:Sapphire, Er:Yb: Glass), nonlinear crystals (KDP & DKDP), KTP, LiNbO3, LBO, BBO, BIBO), passive Q-switch crystals (Cr4+:YAG, Co2+:MgAl2O4), birefringent crystals (YVO4, �±-BBO), Magneto-optic Crystals (TGG) and optical crystals (BaF2, CaF2, MgF2, LiF, Germanium single crystal, Sapphire (Al2O3), YAG, ZnSe, Silicon single crystal, ZnS). If you want to know more about our functional crystals, please do not hesitate to contact OST Photonics. What are Functional Crystals? A wide range of functional crystal materials is used in various optical applications. While optical glass is commonly used as a transparent material, different functional crystal materials, primarily monocrystalline materials, are required for diverse applications due to their unique functionalities: In contrast to glass, birefringent crystals can exhibit birefringence, which is a requirement for various types of polarizers, wave plates, birefringent tuners, and other optical components. Commonly used birefringent crystal materials include YVO4, �±-BBO, quartz, calcite and sapphire. The lattice symmetry of a crystal material is not too high (such as a triangular, quadrilateral, or single prism), and it can exhibit nonlinearity. Nonlinear crystals are primarily used for nonlinear frequency conversion but also find applications in optical modulators like the Pokel cell. A wide variety of functional crystal materials can be used as laser crystals, serving as host materials for laser-active dopants (rare earth ions or transition metal ions). They typically exhibit relatively high transition cross sections, small gain bandwidth, and good heat conduction compared to laser-active glasses. In general, they also allow for higher doping concentrations. In some cases, functional crystal materials are used in spectral regions where glass does not have a wide enough wavelength range and high transmittance. In particular, various materials such as zinc sulfide (ZnS), zinc selenide (ZnSe) and Sapphire (Al2O3) are used as infrared crystals, and other materials such as lithium fluoride (LiF), calcium fluoride (CaF2) and magnesium fluoride (MgF2) are used as ultraviolet crystals. Some functional crystal materials, such as terbium gallium garnet (TGG), exhibit the Faraday effect (polarization rotation caused by magnetic fields), and they can be utilized in devices like Faraday rotators and Faraday isolators.
Application Benchtop temperature chamber can meet certain quality standards and testing specifications ,for example: Daily necessities, cosmetics, electronic components, and medical products .� Most ideal designed for temperature and humidity testing of small samples and specimens used for research, development and quality control.� This dimension are very cute. customer can fit on a personal desk is the most consideration.If you need more models about our test equipment, please reference our chamber-testingï¼?.ï¼?com Feature: Our JOEO Benchtop Temperature Chamber's window is equipped with an anti-sweat electric heater device to prevent water vapor from condensing and water droplets, and high-brightness PL fluorescent lamps keep the interior of the box illuminated;Rectangular multi-layer glass viewing window, which can be used to observe the test items during the test.� With automatic-water supply system, it is convenient to supplement the water supply of the humidification barrel, and it can be recycled and used automatically. High-quality appearance, the body adopts an arc shape, the surface is treated with matte stripes, and the flat non-reaction handle is adopted, which is easy to operate, safe, and reliable. High quality original compressor circulation system adopts the French â??Tecumsehâ??& Germany "Bitzer" brand, which can effectively remove the lubricating oil between the condenser tube and the capillary tube, and the whole series adopts environmentally friendly refrigerants (R23, R404, R507). Double-layer insulation of ess chamber door is tight and airtight, which can effectively isolate internal temperature leakage.� Built-in moving pulley is easy to move and place and has a strong positioning screw to fix the position. Controller has multi-segment program editing and temperature, and humidity can do fast (OUICK) or slope (SLOP) control. Self-developing controller system adopts an imported LCD screen, which can display the measured value, set value, and time at the same time. Announcements: Do not place the sample in the oven heating state, and place the sample in the state of ensuring that the heating is off;� When placing the sample, there should be a certain space around the upper and lower parts to keep the air flow in the box smooth; There is a cooling plate on the heating wire at the bottom of the chamber, and the sample can not be placed on it, so as not to affect the heat flow and lead to heat accumulation; If the sample will have a phase change at high temperature, it must be packed in a tray to avoid contaminating other samples (for example, it will leak oil or change from solid to liquid after heating); Containing flammable and explosive organic volatile solvents or auxiliaries shall not be put into the chamber.
